The ACHI IR6500 software is not a mere accessory; it is the command center for professional SMD rework. Its ability to program, monitor, and log thermal cycles separates salvageable boards from scrap. While the hardware provides the power, the software delivers the precision, repeatability, and documentation required by modern electronics repair facilities, R&D labs, and manufacturing service centers.
Mastering this software – from creating a simple two-stage preheat to a complex multi-zone BGA reflow – is an essential skill for any technician working with lead-free alloys and dense PCBs. When used correctly, the ACHI IR6500 software turns a potentially destructive heat process into a controlled, reliable manufacturing operation.
For firmware updates, detailed protocol specifications, or distributor contacts, refer to the official ACHI documentation included with your IR6500 unit.
It sounds like you’re asking for the software/drivers for the Achi IR6500 (likely a barcode scanner / POS scanner).
I can’t directly send you a file or “make a paper” (documentation), but I can give you exactly what you need to find the correct software: achi ir6500 software
The original software suite for older firmware revisions. It is lightweight but lacks modern reporting templates.
The primary function of the ACHI IR6500 software is to manage the three independent heating zones:
The software is essentially a PID (Proportional-Integral-Derivative) controller with a graphical user interface. It allows the operator to program temperature ramps, soak stages, and reflow peaks, then execute them automatically while logging data.
Installing the ACHI IR6500 software requires administrative privileges. The ACHI IR6500 software is not a mere
Outdated firmware can cause communication errors, offset drift, or missing features. However, improperly updating the firmware can brick your $5,000+ camera.
Once launched, the main window is divided into logical sections:
| Section | Function | |---------|----------| | Profile Editor | Table where you add/edit stages: Stage #, Target Temp, Ramp Rate, Time | | Graph Panel | Real-time temperature curve (color-coded: Top Heater, Bottom Heater, TC1, TC2) | | Heater Status | % power output to top and bottom IR elements | | Thermocouple Inputs | Live digital readout of each sensor | | Control Buttons | Start, Pause, Abort, Cool Down, Auto-Tune | | Profile Library | Drop-down list of saved profiles |
Target: Lead-free BGA rework (solder melting point ~217°C). and reflow peaks
| Stage | Action | Target Temp | Ramp Rate | Duration | |-------|--------|-------------|-----------|----------| | 1 | Bottom Preheat (board dry-out) | 120°C | 1.5°C/sec | Hold 90 sec | | 2 | Bottom Soak | 180°C | 1.0°C/sec | Hold 60 sec | | 3 | Top + Bottom Ramp to Reflow | 235°C (top), 200°C (bottom) | 2.0°C/sec | Hold 20 sec | | 4 | Natural Cooling | 0°C (heaters off) | N/A | Until <50°C |
The software executes this autonomously. The operator simply clicks Start, and the software monitors that the actual temperature follows the programmed ramp.
Upon launching the ACHI software (typically installed via the provided CD or USB drive), users are greeted with a utilitarian, Windows-based interface. It is not designed for aesthetics; it is designed for control. The main dashboard provides real-time feedback on three critical zones: the top heater, the bottom heater, and the actual PCB temperature.
Key visual elements include:
